[932] | 1 | /* |
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| 2 | * SOCLIB_LGPL_HEADER_BEGIN |
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| 3 | * |
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| 4 | * This file is part of SoCLib, GNU LGPLv2.1. |
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| 5 | * |
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| 6 | * SoCLib is free software; you can redistribute it and/or modify it |
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| 7 | * under the terms of the GNU Lesser General Public License as published |
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| 8 | * by the Free Software Foundation; version 2.1 of the License. |
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| 9 | * |
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| 10 | * SoCLib is distributed in the hope that it will be useful, but |
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| 11 | * WITHOUT ANY WARRANTY; without even the implied warranty of |
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| 12 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
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| 13 | * Lesser General Public License for more details. |
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| 14 | * |
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| 15 | * You should have received a copy of the GNU Lesser General Public |
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| 16 | * License along with SoCLib; if not, write to the Free Software |
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| 17 | * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA |
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| 18 | * 02110-1301 USA |
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| 19 | * |
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| 20 | * SOCLIB_LGPL_HEADER_END |
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| 21 | * |
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| 22 | * Copyright (c) UPMC, Lip6, Asim |
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| 23 | Alain Greiner <alain.greiner@lip6.fr> 2005 |
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| 24 | * Nicolas Pouillon <nipo@ssji.net>, 2008 |
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| 25 | * |
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| 26 | * Maintainers: alain |
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| 27 | */ |
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| 28 | |
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| 29 | /////////////////////////////////////////////////////////////////////////// |
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| 30 | // Implementation Note : |
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| 31 | // This component is implemented as two independant combinational |
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| 32 | // crossbars, for VCI commands and VCI responses respectively. |
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| 33 | // - The CMD crossbar has NI local plus one global input |
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| 34 | // ports. It has NT local + one global output ports. |
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| 35 | // - The RSP crossbar has NT local plus one global input |
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| 36 | // ports. It has NI local + one global output ports. |
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| 37 | // For each generic crossbar, the input and output ports are impemented |
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| 38 | // as arrays of ports, and the last port (i.e. the largest index value) |
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| 39 | // is the port connected to the global interconnect. |
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| 40 | // |
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| 41 | // This component does not contain FIFOs, and behaves as a Mealy FSM. |
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| 42 | // |
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| 43 | // It supportsi single flit VCI broadcast commands : If the |
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| 44 | // two lsb bits of the VCI ADDRESS are non zero, the corresponding |
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| 45 | // command is considered as a broadcast. |
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| 46 | // For a broadcast, the single VCI flit is SEQUENCIALLY transmitted |
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| 47 | // to the (NT+1) output ports, but not to the requesting input port. |
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| 48 | // For each transmitted flit to a given output port, the standard |
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| 49 | // round-robin allocation policy is respected. |
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| 50 | // As the broadcast command arriving on input port (i) should not be |
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| 51 | // transmitted to the requester, it is not transmitted on output port (i). |
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| 52 | // Therefore, in case of broadcast, NI & NT must be equal, and all |
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| 53 | // connected components mus have the same index for input & output ports. |
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| 54 | /////////////////////////////////////////////////////////////////////////// |
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| 55 | |
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| 56 | #include <systemc> |
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| 57 | #include <cassert> |
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| 58 | #include "vci_buffers.h" |
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| 59 | #include "../include/vci_local_crossbar.h" |
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| 60 | #include "alloc_elems.h" |
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| 61 | |
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| 62 | namespace soclib { namespace caba { |
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| 63 | |
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| 64 | using soclib::common::alloc_elems; |
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| 65 | using soclib::common::dealloc_elems; |
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| 66 | |
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| 67 | using namespace sc_core; |
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| 68 | |
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| 69 | //////////////////////////////////////////////// |
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| 70 | template<typename pkt_t> |
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| 71 | class SimpleCrossbar |
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| 72 | //////////////////////////////////////////////// |
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| 73 | { |
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| 74 | const size_t m_cluster_id; // cluster index |
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| 75 | const size_t m_in_size; // total number of inputs (local + global) |
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| 76 | const size_t m_out_size; // total number of outputs (local + global) |
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| 77 | const void* m_rt; // routing table if cmd / masking table if rsp |
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| 78 | const void* m_lt; // locality table if cmd / id_locality table if rsp |
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| 79 | const bool m_is_cmd; // cmd crossbar when true |
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| 80 | |
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[1013] | 81 | bool m_barrier; // barrier in the global interface is enabled |
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| 82 | bool m_barrier_release; // request to release the barrier |
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| 83 | |
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[932] | 84 | sc_signal<bool>* r_allocated; // for each output port: allocation state |
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| 85 | sc_signal<size_t>* r_origin; // for each output port: input port index |
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| 86 | sc_signal<bool>* r_bc_state; // for each input port: broadcast requested |
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| 87 | sc_signal<size_t>* r_bc_count; // for each input port: requested output index |
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| 88 | |
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| 89 | public: |
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| 90 | //////////////////////////////// |
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| 91 | SimpleCrossbar( size_t cluster_id, // cluster index |
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| 92 | size_t in_size, // number of inputs |
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| 93 | size_t out_size, // number of outputs |
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| 94 | void* rt, // routing table |
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| 95 | void* lt, // locality table |
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[1013] | 96 | bool is_cmd, |
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| 97 | bool barrier = false) |
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[932] | 98 | : m_cluster_id( cluster_id ), |
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| 99 | m_in_size( in_size ), |
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| 100 | m_out_size( out_size ), |
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| 101 | m_rt( rt ), |
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| 102 | m_lt( lt ), |
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[1001] | 103 | m_is_cmd( is_cmd ), |
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[1013] | 104 | m_barrier( barrier ), |
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| 105 | m_barrier_release( false ) |
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[932] | 106 | { |
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| 107 | r_allocated = new sc_signal<bool>[out_size]; |
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| 108 | r_origin = new sc_signal<size_t>[out_size]; |
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| 109 | r_bc_state = new sc_signal<bool>[in_size]; |
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| 110 | r_bc_count = new sc_signal<size_t>[in_size]; |
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| 111 | } // end constructor |
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| 112 | |
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[1001] | 113 | ////////////////////////////////// |
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[1013] | 114 | inline void setBarrier(const bool &value) |
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[1001] | 115 | { |
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| 116 | m_barrier = value; |
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| 117 | } |
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| 118 | |
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[1013] | 119 | ////////////////////////////////// |
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| 120 | inline void releaseBarrier() |
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| 121 | { |
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| 122 | m_barrier_release = true; |
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| 123 | } |
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| 124 | |
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[932] | 125 | //////////// |
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| 126 | void reset() |
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| 127 | { |
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| 128 | for (size_t i=0; i<m_out_size; ++i) |
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| 129 | { |
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| 130 | r_origin[i] = 0; |
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| 131 | r_allocated[i] = false; |
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| 132 | } |
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| 133 | for (size_t i=0; i<m_in_size; ++i) |
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| 134 | { |
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| 135 | r_bc_state[i] = false; |
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| 136 | r_bc_count[i] = 0; |
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| 137 | } |
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| 138 | } // end reset() |
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| 139 | |
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| 140 | ////////////////// |
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| 141 | void print_trace() |
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| 142 | { |
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| 143 | for( size_t out=0 ; out<m_out_size ; out++) |
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| 144 | { |
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| 145 | if( r_allocated[out].read() ) |
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| 146 | { |
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| 147 | if( m_is_cmd ) std::cout << std::dec |
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| 148 | << "initiator " << r_origin[out].read() |
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| 149 | << " => target " << out; |
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| 150 | else std::cout << std::dec |
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| 151 | << "target " << r_origin[out].read() |
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| 152 | << " => initiator " << out; |
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| 153 | } |
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| 154 | } |
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| 155 | for ( size_t in=0 ; in<m_in_size ; in++) |
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| 156 | { |
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| 157 | if( r_bc_state[in].read() ) |
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| 158 | { |
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| 159 | if( m_is_cmd ) std::cout << " broadcast request from initiator " << in |
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| 160 | << " requesting target " |
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| 161 | << r_bc_count[in].read(); |
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| 162 | else std::cout << " broadcast request from target " << in |
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| 163 | << " requesting initiator " |
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| 164 | << r_bc_count[in].read(); |
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| 165 | } |
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| 166 | } |
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[1001] | 167 | std::cout << " / barrier enable = " << m_barrier; |
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[932] | 168 | } // end print_trace() |
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| 169 | |
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| 170 | ////////////////////////// |
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| 171 | size_t route( pkt_t flit ) |
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| 172 | { |
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| 173 | if( m_is_cmd ) // we use a 64 bits AddressDecodingTable for ADDRESS |
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| 174 | { |
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| 175 | soclib::common::AddressDecodingTable<uint64_t, size_t>* rt = |
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| 176 | (soclib::common::AddressDecodingTable<uint64_t, size_t>*)m_rt; |
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| 177 | return rt->get_value( (uint64_t)(flit.dest()) ); |
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| 178 | } |
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| 179 | else // we use a 32 bits AddressDecodingTable for SRCID |
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| 180 | { |
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| 181 | soclib::common::AddressDecodingTable<uint32_t, size_t>* rt = |
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| 182 | (soclib::common::AddressDecodingTable<uint32_t, size_t>*)m_rt; |
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| 183 | return rt->get_value( (uint32_t)(flit.dest()) ); |
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| 184 | } |
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| 185 | } // end route() |
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| 186 | |
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| 187 | /////////////////////////// |
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| 188 | bool is_local( pkt_t flit ) |
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| 189 | { |
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| 190 | if( m_is_cmd ) // we use a 64 bits AddressDecoding Table for ADDRESS |
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| 191 | { |
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| 192 | soclib::common::AddressDecodingTable<uint64_t, bool>* lt = |
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| 193 | (soclib::common::AddressDecodingTable<uint64_t, bool>*)m_lt; |
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| 194 | return lt->get_value( (uint64_t)(flit.dest()) ); |
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| 195 | } |
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| 196 | else // we use a 32 bits AddressDecodingTable for SRCID |
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| 197 | { |
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| 198 | soclib::common::AddressDecodingTable<uint32_t, bool>* lt = |
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| 199 | (soclib::common::AddressDecodingTable<uint32_t, bool>*)m_lt; |
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| 200 | return lt->get_value( (uint32_t)(flit.dest()) ); |
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| 201 | } |
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| 202 | } // end is_local() |
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| 203 | |
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| 204 | ////////////////////////////////////////////////////////////// |
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| 205 | void transition( typename pkt_t::input_port_t **input_port, |
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| 206 | typename pkt_t::output_port_t **output_port ) |
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| 207 | { |
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| 208 | // loop on the input ports to handle r_bc_state[in] and r_bc_count[in] |
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| 209 | for( size_t in = 0 ; in < m_in_size ; in++ ) |
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| 210 | { |
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[1001] | 211 | /* drop global-to-local packets when the barrier is enabled */ |
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| 212 | bool write = input_port[in]->getVal(); |
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| 213 | if ( in == (m_in_size - 1) ) |
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| 214 | write = write && !m_barrier; |
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| 215 | |
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| 216 | if ( write ) |
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[932] | 217 | { |
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| 218 | if ( r_bc_state[in].read() ) // pending broadcast |
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| 219 | { |
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| 220 | size_t out = r_bc_count[in]; |
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| 221 | if ( ( r_allocated[out].read() ) && |
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| 222 | ( r_origin[out].read() == in ) && |
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| 223 | ( output_port[out]->toPeerEnd() ) ) // successfully transmitted |
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| 224 | { |
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| 225 | // the broadcast should not be sent to the requester... |
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| 226 | if ( (out == 0) || ((out == 1) && (in == 0)) ) r_bc_state[in] = false; |
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| 227 | else if ( (out-1) != in ) r_bc_count[in] = out-1; |
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| 228 | else r_bc_count[in] = out-2; |
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| 229 | } |
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| 230 | } |
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| 231 | else // no pending proadcast |
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| 232 | { |
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| 233 | pkt_t tmp; |
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| 234 | tmp.readFrom(*input_port[in]); |
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| 235 | if ( tmp.is_broadcast() ) // broadcast request |
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| 236 | { |
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| 237 | assert( input_port[in]->eop && |
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| 238 | "error in vci_local_crossbar : VCI broacast packet must be one flit"); |
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| 239 | |
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| 240 | r_bc_state[in] = true; |
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| 241 | // the broadcast should not be sent to the requester... |
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| 242 | if ( in == m_in_size-1 ) r_bc_count[in] = m_out_size-2; |
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| 243 | else r_bc_count[in] = m_out_size-1; |
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| 244 | } |
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| 245 | } |
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| 246 | } |
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| 247 | } |
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| 248 | |
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| 249 | // loop on the output ports to handle r_allocated[out] and r_origin[out] |
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| 250 | for ( size_t out = 0; out < m_out_size; out++) |
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| 251 | { |
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| 252 | // de-allocation if the last flit is accepted |
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| 253 | if ( r_allocated[out] ) |
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| 254 | { |
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| 255 | if ( output_port[out]->toPeerEnd() ) r_allocated[out] = false; |
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| 256 | } |
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| 257 | // allocation respecting round-robin priority (even for broadcast) |
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| 258 | else |
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| 259 | { |
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| 260 | for(size_t _in = 0; _in < m_in_size; _in++) |
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| 261 | { |
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| 262 | size_t in = (_in + r_origin[out] + 1) % m_in_size; |
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[1001] | 263 | |
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| 264 | /* drop global-to-local packets when the barrier is enabled */ |
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| 265 | bool write = input_port[in]->getVal(); |
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| 266 | if ( in == (m_in_size - 1) ) |
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| 267 | write = write && !m_barrier; |
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| 268 | |
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| 269 | if ( write ) |
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[932] | 270 | { |
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| 271 | pkt_t tmp; |
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| 272 | tmp.readFrom(*input_port[in]); |
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[933] | 273 | |
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| 274 | // broadcast request |
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| 275 | bool bc_req = tmp.is_broadcast() and |
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| 276 | r_bc_state[in].read() and (r_bc_count[in].read() == out); |
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| 277 | |
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| 278 | // to global request |
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| 279 | bool gl_req = not tmp.is_broadcast() and (out == m_out_size-1) and |
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| 280 | not is_local( tmp ) and (in != m_in_size-1); |
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| 281 | |
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| 282 | // to local request |
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| 283 | bool lc_req = not tmp.is_broadcast() and (out == route( tmp )) and |
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| 284 | is_local( tmp ); |
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| 285 | |
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| 286 | // to migrated segment request (to local) |
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| 287 | bool mg_req = not tmp.is_broadcast() and (out == route( tmp )) and |
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| 288 | not is_local( tmp ) and (in == m_in_size-1); |
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| 289 | |
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| 290 | if ( bc_req or gl_req or lc_req or mg_req ) |
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[932] | 291 | { |
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| 292 | r_allocated[out] = true; |
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| 293 | r_origin[out] = in; |
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| 294 | break; |
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| 295 | } |
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| 296 | } |
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| 297 | } |
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| 298 | } |
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| 299 | } |
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[1013] | 300 | |
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| 301 | // release the barrier if there is no pending global-to-local |
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| 302 | // request. This avoid a race condition situation between a |
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| 303 | // global-to-local request and the release of the barrier. In |
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| 304 | // such situation, for multi-flit packets, some flits may be |
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| 305 | // dropped and others not. |
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| 306 | if (m_barrier && m_barrier_release && !input_port[m_in_size-1]->getVal()) |
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| 307 | { |
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| 308 | m_barrier = false; |
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| 309 | } |
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[932] | 310 | } // end transition |
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| 311 | |
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| 312 | ///////////////////////////////////////////////////////////// |
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| 313 | void genMealy( typename pkt_t::input_port_t **input_port, |
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| 314 | typename pkt_t::output_port_t **output_port ) |
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| 315 | { |
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| 316 | bool ack[m_in_size]; |
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| 317 | for( size_t in = 0; in < m_in_size; in++) ack[in] = false; |
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| 318 | |
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| 319 | // transmit flits on output ports |
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| 320 | for( size_t out = 0; out < m_out_size; out++) |
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| 321 | { |
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| 322 | if (r_allocated[out]) |
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| 323 | { |
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| 324 | size_t in = r_origin[out]; |
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| 325 | pkt_t tmp; |
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| 326 | tmp.readFrom(*input_port[in]); |
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[1001] | 327 | |
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| 328 | // if the hardware barrier is activated, drop all |
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| 329 | // local-to-global packets. This is done by consuming every |
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| 330 | // incoming packet (send the acknowledgement to the input port) |
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| 331 | // and resetting the cmdval signal to the upper network level. |
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[1013] | 332 | // When there is a barrier release request, local-to-global |
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| 333 | // request are allowed. |
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[1001] | 334 | bool read = output_port[out]->getAck(); |
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| 335 | if (out == (m_out_size - 1)) { |
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[1013] | 336 | read = read || (m_barrier && !m_barrier_release); |
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| 337 | tmp.set_val(tmp.val() && (!m_barrier || m_barrier_release)); |
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[1001] | 338 | } |
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| 339 | |
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| 340 | ack[in] = read; |
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[932] | 341 | tmp.writeTo(*output_port[out]); |
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[1001] | 342 | |
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[932] | 343 | if ( r_bc_state[in].read() ) // its a broacast |
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| 344 | { |
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| 345 | // in case of broadcast, the flit must be consumed only |
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| 346 | // if it is the last output port ... |
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| 347 | ack[in] = ack[in] && ( (out == 0) || ((out == 1) && (in == 0)) ); |
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| 348 | } |
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| 349 | } |
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| 350 | else |
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| 351 | { |
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| 352 | output_port[out]->setVal( false ); |
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| 353 | } |
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| 354 | } |
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[1001] | 355 | // Drop all global-to-local packets when the hardware barrier is enabled |
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| 356 | ack[m_in_size - 1] = ack[m_in_size - 1] || m_barrier; |
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[932] | 357 | |
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| 358 | // Send acknowledges on input ports |
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| 359 | for( size_t in = 0; in < m_in_size; in++) input_port[in]->setAck( ack[in] ); |
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| 360 | } // en genmealy |
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| 361 | |
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| 362 | }; // end class SimpleCrossbar |
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| 363 | |
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| 364 | #define tmpl(x) template<typename vci_param> x VciLocalCrossbar<vci_param> |
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| 365 | |
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| 366 | ///////////////////////// |
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| 367 | tmpl(void)::print_trace() |
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| 368 | { |
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| 369 | std::cout << "LOCAL_CROSSBAR " << name() << " / "; |
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| 370 | m_cmd_crossbar->print_trace(); |
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[1001] | 371 | std::cout << " / "; |
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| 372 | m_rsp_crossbar->print_trace(); |
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[932] | 373 | std::cout << std::endl; |
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| 374 | } |
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| 375 | |
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| 376 | //////////////////////// |
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| 377 | tmpl(void)::transition() |
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| 378 | { |
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| 379 | if ( ! p_resetn.read() ) |
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| 380 | { |
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| 381 | m_cmd_crossbar->reset(); |
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| 382 | m_rsp_crossbar->reset(); |
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| 383 | return; |
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| 384 | } |
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| 385 | |
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[1013] | 386 | if ( p_barrier_enable != NULL ) |
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[1001] | 387 | { |
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[1013] | 388 | if ( p_barrier_enable->read() == 0xFFFFFFFF ) |
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| 389 | { |
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| 390 | m_cmd_crossbar->releaseBarrier(); |
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| 391 | m_rsp_crossbar->releaseBarrier(); |
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| 392 | } |
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[1001] | 393 | } |
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[932] | 394 | m_cmd_crossbar->transition( m_ports_to_initiator, m_ports_to_target ); |
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| 395 | m_rsp_crossbar->transition( m_ports_to_target, m_ports_to_initiator ); |
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| 396 | } |
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| 397 | |
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| 398 | ////////////////////// |
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| 399 | tmpl(void)::genMealy() |
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| 400 | { |
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| 401 | m_cmd_crossbar->genMealy( m_ports_to_initiator, m_ports_to_target ); |
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| 402 | m_rsp_crossbar->genMealy( m_ports_to_target, m_ports_to_initiator ); |
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| 403 | } |
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| 404 | |
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| 405 | /////////////////////////////////////////////////////////////////////// |
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| 406 | tmpl(/**/)::VciLocalCrossbar( sc_core::sc_module_name name, |
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| 407 | const soclib::common::MappingTable &mt, |
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| 408 | const size_t cluster_id, |
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| 409 | const size_t nb_attached_initiators, |
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| 410 | const size_t nb_attached_targets, |
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[1001] | 411 | const size_t default_target_id, |
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| 412 | const bool hardware_barrier ) |
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[932] | 413 | : BaseModule(name), |
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| 414 | p_clk("clk"), |
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| 415 | p_resetn("resetn"), |
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| 416 | p_to_target(soclib::common::alloc_elems<VciInitiator<vci_param> >( |
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| 417 | "to_target", nb_attached_targets)), |
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| 418 | p_to_initiator(soclib::common::alloc_elems<VciTarget<vci_param> >( |
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| 419 | "to_initiator", nb_attached_initiators)), |
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| 420 | p_target_to_up("target_to_up"), |
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| 421 | p_initiator_to_up("initiator_to_up"), |
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| 422 | m_nb_attached_initiators(nb_attached_initiators), |
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| 423 | m_nb_attached_targets(nb_attached_targets), |
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| 424 | m_cmd_rt ( mt.getLocalIndexFromAddress( cluster_id, default_target_id ) ), |
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| 425 | m_cmd_lt ( mt.getLocalMatchFromAddress( cluster_id ) ), |
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| 426 | m_rsp_rt ( mt.getLocalIndexFromSrcid( cluster_id ) ), |
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| 427 | m_rsp_lt ( mt.getLocalMatchFromSrcid( cluster_id ) ) |
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| 428 | { |
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| 429 | std::cout << " - Building VciLocalCrossbar " << name << std::dec << std::endl |
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| 430 | << " => cluster_id = " << cluster_id << std::endl |
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| 431 | << " => targets = " << nb_attached_targets << std::endl |
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| 432 | << " => initiators = " << nb_attached_initiators << std::endl |
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| 433 | << " => default target = " << default_target_id << std::endl; |
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| 434 | |
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| 435 | SC_METHOD(transition); |
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| 436 | dont_initialize(); |
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| 437 | sensitive << p_clk.pos(); |
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| 438 | |
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| 439 | SC_METHOD(genMealy); |
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| 440 | dont_initialize(); |
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| 441 | sensitive << p_clk.neg(); |
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| 442 | |
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| 443 | for ( size_t i=0; i<nb_attached_initiators; ++i ) |
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| 444 | sensitive << p_to_initiator[i]; |
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| 445 | for ( size_t i=0; i<nb_attached_targets; ++i ) |
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| 446 | sensitive << p_to_target[i]; |
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| 447 | |
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| 448 | sensitive << p_target_to_up |
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| 449 | << p_initiator_to_up; |
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| 450 | |
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| 451 | // building cmd and rsp crossbars |
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| 452 | m_cmd_crossbar = new SimpleCrossbar<VciCmdBuffer<vci_param> >( |
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| 453 | cluster_id, |
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| 454 | nb_attached_initiators+1, |
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| 455 | nb_attached_targets+1, |
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| 456 | (void*)(&m_cmd_rt), |
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| 457 | (void*)(&m_cmd_lt), |
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[1013] | 458 | true, |
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| 459 | hardware_barrier ); |
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[932] | 460 | |
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| 461 | m_rsp_crossbar = new SimpleCrossbar<VciRspBuffer<vci_param> >( |
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| 462 | cluster_id, |
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| 463 | nb_attached_targets+1, |
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| 464 | nb_attached_initiators+1, |
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| 465 | (void*)(&m_rsp_rt), |
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| 466 | (void*)(&m_rsp_lt), |
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[1013] | 467 | false, |
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| 468 | hardware_barrier ); |
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[932] | 469 | |
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| 470 | m_ports_to_initiator = new VciTarget<vci_param>*[nb_attached_initiators+1]; |
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| 471 | for (size_t i=0; i<nb_attached_initiators; ++i) |
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| 472 | m_ports_to_initiator[i] = &p_to_initiator[i]; |
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| 473 | m_ports_to_initiator[nb_attached_initiators] = &p_target_to_up; |
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| 474 | |
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| 475 | m_ports_to_target = new VciInitiator<vci_param>*[nb_attached_targets+1]; |
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| 476 | for (size_t i=0; i<nb_attached_targets; ++i) |
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| 477 | m_ports_to_target[i] = &p_to_target[i]; |
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| 478 | m_ports_to_target[nb_attached_targets] = &p_initiator_to_up; |
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[1001] | 479 | |
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| 480 | if (hardware_barrier) |
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| 481 | p_barrier_enable = new sc_in<uint32_t>("p_barrier_enable"); |
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| 482 | else |
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| 483 | p_barrier_enable = NULL; |
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[932] | 484 | } |
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| 485 | |
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| 486 | /////////////////////////////// |
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| 487 | tmpl(/**/)::~VciLocalCrossbar() |
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| 488 | { |
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| 489 | soclib::common::dealloc_elems(p_to_initiator, m_nb_attached_initiators); |
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| 490 | soclib::common::dealloc_elems(p_to_target, m_nb_attached_targets); |
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| 491 | } |
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| 492 | |
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| 493 | }} |
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| 494 | |
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| 495 | // Local Variables: |
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| 496 | // tab-width: 4 |
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| 497 | // c-basic-offset: 4 |
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| 498 | // c-file-offsets:((innamespace . 0)(inline-open . 0)) |
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| 499 | // indent-tabs-mode: nil |
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| 500 | // End: |
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| 501 | |
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| 502 | // vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=4:softtabstop=4 |
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